Study of a 105 GHz short-pulse dummy load for the electron cyclotron resonance heating system with the quasi-optical method

被引：0

作者：

熊寿齐 ^{[1
]}

夏冬辉 ^{[1
]}

黄梅 ^{[2
]}

陈罡宇 ^{[2
]}

翁文婷 ^{[1
]}

范国垚 ^{[2
]}

潘垣 ^{[1
]}

机构：

[1] International Joint Research Laboratory of Magnetic Confinement Fusion and Plasma Physics, State Key Laboratory of Advanced Electromagnetic Engineering and Technology, School of Electrical and Electronic Engineering, Huazhong University of Science and Tech

[2] Southwestern Institute of

来源：

Plasma Science and Technology | 2022年 / 10期

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D O I：

暂无

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学科分类号：

摘要：

The accurate power measurement is important for an ECRH system in tokamak. The dummy load is designed and developed for the measurement of the millimeter wave power. This work analyzes the dummy load based on the quasi-optical method and the ray tracing method. The reflectivity and thermal deposition of the dummy load have been considered to ensure the safety of the entire system. High-power tests have been carried out at a 105 GHz/500 kW ECRH system. The results of the tests indicate that the designed dummy load is stable and valid.

引用

页码：158 / 165

页数：8

共 25 条

[1] Study of a 105 GHz short-pulse dummy load for the electron cyclotron resonance heating system with the quasi-optical method
熊寿齐
夏冬辉
黄梅
陈罡宇
翁文婷
范国垚
潘垣
Plasma Science and Technology, 2022, 24 (10) : 158 - 165
[2] Study of a 105 GHz short-pulse dummy load for the electron cyclotron resonance heating system with the quasi-optical method
Xiong, Shouqi
Xia, Donghui
Huang, Mei
Chen, Gangyu
Weng, Wenting
Fan, Guoyao
Pan, Yuan
PLASMA SCIENCE & TECHNOLOGY, 2022, 24 (10)
[3] A method for synthesis of quasi-optical transmission line for the 45 GHz/20 kW electron cyclotron resonance ion source
Liu, Jianwei
Guo, Junwei
Wang, Lina
Niu, Xinjian
Sun, Xu
REVIEW OF SCIENTIFIC INSTRUMENTS, 2022, 93 (01):
[4] INDUCED RESONANCE ELECTRON-CYCLOTRON (IREC) QUASI-OPTICAL MASER
SPRANGLE, P
TANG, CM
SERAFIM, P
NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 1986, 250 (1-2): : 361 - 365
[5] TRANSIENT ELECTROSTATIC POTENTIALS DRIVEN BY SHORT-PULSE ELECTRON-CYCLOTRON HEATING
LICHTENBERG, AJ
LIEBERMAN, MA
COHEN, RH
PHYSICS OF FLUIDS, 1987, 30 (11) : 3540 - 3547
[6] Quasi-optical simulation of the electron cyclotron plasma heating in a mirror magnetic trap
A. G. Shalashov
A. A. Balakin
T. A. Khusainov
E. D. Gospodchikov
A. L. Solomakhin
Journal of Experimental and Theoretical Physics, 2017, 124 : 325 - 340
[7] Quasi-Optical Simulation of the Electron Cyclotron Plasma Heating in a Mirror Magnetic Trap
Shalashov, A. G.
Balakin, A. A.
Khusainov, T. A.
Gospodchikov, E. D.
Solomakhin, A. L.
JOURNAL OF EXPERIMENTAL AND THEORETICAL PHYSICS, 2017, 124 (02) : 325 - 340
[8] Study of Dual-Frequency Polarizer for Electron Cyclotron Resonance Heating Systems of 105 and 140 GHz
Zhang, Feng
Huang, Mei
Wang, He
Chen, Gangyu
IEEE TRANSACTIONS ON PLASMA SCIENCE, 2020, 48 (05) : 1298 - 1302
[9] INDUCED RESONANCE ELECTRON-CYCLOTRON QUASI-OPTICAL MASER IN AN OPEN RESONATOR
SPRANGLE, P
TANG, CM
SERAFIM, P
APPLIED PHYSICS LETTERS, 1986, 49 (18) : 1154 - 1156
[10] Electron cyclotron resonance heating in a short cylindrical plasma system
Vipin K. Yadav
D. Bora
Pramana, 2004, 63 : 563 - 577

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